# matplotlib and apect ratio of geographical-data plots

I process geographical information and present the results using matplotlib. All input is lattitude/longitude [degree]. I convert into x/y [meter] for my calculations. And I present my results in lattitude/longitude. The problem is to get the graphs aspect-ratio right: All graphs are too wide. Is there a standard procedure to set the correct aspect-ratio so I can simply draw my scatter and other diagrams
using lat/lon and the result has the correct shape? On screen and on paper (png)?

[added this part later] This is a bare-bone stripped version of my problem. I need actual lat/lon values around the axes and an accurate shape (square). Right now it appears wide (2x).

``````import math
import matplotlib.pyplot as plt
import numpy as np
from pylab import *

plt_area=[0,w,59.5,60.5] #60deg North, adjacent to the prime meridian

a=np.zeros(shape=(300,300))

matshow(a, extent=plt_area)

plt.grid(False)
plt.axis(plt_area)
fig   = plt.gcf()
fig.set_size_inches(8,8)

plt.show()
``````
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It seems I found the solution. And I found it here: python - matplotlib - setting aspect ratio

``````import math
import matplotlib.pyplot as plt
import numpy as np

plt_area=[0,w,59.5,60.5] #square area

a=np.zeros(shape=(300,300))

fig = plt.figure()

ax.imshow(a)

plt.grid(False)
ax.axis(plt_area)
fig   = plt.gcf()
fig.set_size_inches(8,8)
ax.set_aspect(w)

plt.show()
``````
-

In matplotlib I usually change the figure size like this:

``````import matplotlib.pyplot as plt

plt.clf()
fig     = plt.figure()
fig_p   = plt.gcf()
fig_p.set_size_inches(8, 8)    # x, y
``````

However this sets the dimensions for the figure outer dimensions, not the plot area. You can change the plot area relative to the figure size given in ratios of the total figure size lengths of x and y respectively:

``````fig.subplots_adjust(left=0.1, right=0.9, bottom=0.1, top=0.9)
``````

As long as the the relative ratios stay symmetrically the aspect ratio should be the same for the plot are.

Example 1:

``````plt.clf()
fig     = plt.figure()
fig_p   = plt.gcf()
fig_p.set_size_inches(5, 5)    # x, y for figure canvas

# Relative distance ratio between origin of the figure and max extend of canvas

xdata = [rand()*10 for i in xrange(100)]
ydata = [rand()*1  for i in xrange(100)]
ax1.plot(xdata, ydata, '.b', )
ax1.set_xlabel('Very Large X-Label', size=30)
plt.savefig('squareplot.png', dpi=96)
``````

Example 2:

``````fig.subplots_adjust(left=0.0, right=1.0, bottom=0.0, top=1.0)
``````

Plot area fills the figure size completely:

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I thought of this but I hoped their would be a more precise way of setting the apect ratio. For now I will follow you suggestion and keep the y-size and set the x-size relative to cos(lat). Thank you! –  frits Sep 19 '13 at 7:57
After using this suggestions I added a code-example to the original question. –  frits Sep 19 '13 at 8:44
How more precise do you need it? In my understanding the 'subplots_adjust' overwrites other settings that potentially distort the aspect ratio and hence is should work fine. –  Betrieb Sep 19 '13 at 11:00
From your example code `w` is about 2 and then you do: `fig.set_size_inches(8,w*8)`. You are forcing the graph to be wide but you say the graph should be square and not wide? I'm not sure I understand your question. –  Betrieb Sep 19 '13 at 11:06
Thank you for your reply. I gave it another try to explain my problem. –  frits Sep 19 '13 at 14:52